Spatioelectrocardiograph

The spatioelectrocardiograph is a new device for measuring and analyzing the electrical activity of the heart, which uses spatial measurement to obtain more accurate information about the heart's function.

A spatioelectrocardiograph uses special sensors that are placed on the surface of the patient's body and measure the electrical signals that occur in the heart during its operation. These signals are sent to a computer, which processes them and creates a three-dimensional model of the electrical activity of the heart.

Thanks to spatial measurement, the spacioelectrocardiograph can determine not only the heart rate, but also the direction of electrical impulses, which allows for more accurate diagnosis of various heart diseases.

In addition, the spatioelectrocardiograph can be used to monitor the patient's condition in real time, which allows you to quickly respond to changes in heart function and take measures to prevent complications.

Thus, the spacioelectrocardiograph is an important tool for diagnosing and treating heart diseases, as well as for monitoring the condition of patients in a hospital or at home.

Spasioelectrocardiograph is a device for recording and studying the electrical phenomena of the heart by recording its potentials. The science of electrocardiology deals with this study. Almost all human biopotentials are various types of electrical processes. Any changes in electrical potentials on the surface of the body are recorded for diagnostic purposes using EEG (electroencephalography), since the brain is a single system of potentials, and any local changes in the brain most often indicate its pathology, or the adaptation processes are disrupted. Each pathology has its own EEG pattern, which is used to establish a diagnosis.

The main functions of the spasioelectrocardiograph are: - ECG registration during a medical appointment - Possibility of long-term monitoring of ECG and blood pressure at home. - Lack of preparation by the subject for an ECG. The following requirements are imposed on spasiocardiography: it must be low-traumatic, provide a one-dimensional recording of the electrocardiogram, be diagnostically accurate, take into account the characteristics of each patient, and be documented for a long time (multi-day). In the USSR, the first use of teleelectrocardiographs in medical institutions revealed numerous shortcomings, the main one of which, especially evident in rural areas, was the lack of constant attention to the recording analyzer. Therefore, many modern devices are equipped with built-in memory for recording ECG under various conditions and are transferred to the clinic to the patient the next day, which is facilitated by the compact size of the spazioECA (up to 4 kg and many sites where this data can be downloaded), providing preliminary processing of signals in automatic mode, and then transfer the resulting 12-channel electrocardiogram to the doctor for interpretation. A modern spasioElectrocardiograph can combine monitoring functions with monitoring of other physiological parameters (pressure, position, pulse), conduct a verbal report on the events that occurred (unfavorable, dangerous moments) and report them to the doctor, record events and transfer the recorded recordings to a computer for decoding, notify about the beginning and end of analytical processing of the combined ECG, record signals transmitted by the patient for teleconsultations and other purposes. One of the important parameters is information productivity, characterized by the time interval during which a reliable ECG can be recorded with a minimum probability of distortion (individual reliability intervals). IN